diff --git a/gotools-core/src/geometry/CurveOnSurface.C b/gotools-core/src/geometry/CurveOnSurface.C index 7276ce83..44e3fe82 100644 --- a/gotools-core/src/geometry/CurveOnSurface.C +++ b/gotools-core/src/geometry/CurveOnSurface.C @@ -1519,6 +1519,10 @@ bool CurveOnSurface::ensureParCrvExistence(double epsgeo, ", elem_cv->instanceType(): " + std::to_string(elem_cv->instanceType())); //std::cout << "DEBUG: debug_same_trace: " << debug_same_trace << std::endl; } + } else { + LOG_WARN("Failed to project elementary curve: elem_sf->instanceType(): " + + std::to_string(elem_sf->instanceType()) + ", elem_cv->instanceType(): " + + std::to_string(elem_cv->instanceType())); } } } diff --git a/gotools-core/src/geometry/Plane.C b/gotools-core/src/geometry/Plane.C index 271ac838..f530783c 100644 --- a/gotools-core/src/geometry/Plane.C +++ b/gotools-core/src/geometry/Plane.C @@ -785,22 +785,12 @@ Plane::getElementaryParamCurve(ElementaryCurve* space_crv, double epspar, param_cv->setParamBounds(t1, t2); // We do not reverse the parameter direction of the param cv even if space curve is reversed. Already handled by // the evaluation. - - // Issue warning if outside epspar. - Point par_cv_1 = param_cv->point(t1); - double d1 = par1.dist(par_cv_1); - Point par_cv_2 = param_cv->point(t2); - double d2 = par2.dist(par_cv_2); - if (std::max(d1, d2) > epspar) { - LOG_WARN("Line: d1: " + std::to_string(d1) + ", d2: " + std::to_string(d2)); - } } else { - // For the circle we must check: + // For the circle we must check (swapped sf is handled by evaluation): // 1) Space circle normal vs plane normal (may be flipped). - // 2) Plane swapped_: Handled by the evaluation. - // 3) Space curve: Is reversed. + // 2) Space curve: Is reversed. // The space circle normal should be close to the plane normal (or flipped). double ang_tol = 1e-04; @@ -848,8 +838,6 @@ Plane::getElementaryParamCurve(ElementaryCurve* space_crv, double epspar, if (!y_axis_reversed) { param_cv = shared_ptr(new Circle(rad_par, centre_2d, param_cv_axis, x_axis_par, reversed)); } else { - //LOG_WARN("Fixing 2d circle with flipped normal."); - //param_cv->reverseParameterDirection(); double vec1_rot_ang = 2*M_PI - t2 - t1; // Rotate ccw. Point new_x_axis_par = x_axis_par; Point rot_axis_not_used(0.0, 0.0); // Rot axis is not used for 2d case. Always ccw in the plane. @@ -857,29 +845,7 @@ Plane::getElementaryParamCurve(ElementaryCurve* space_crv, double epspar, param_cv = shared_ptr(new Circle(rad_par, centre_2d, param_cv_axis, new_x_axis_par, !reversed)); } param_cv->setParamBounds(space_crv->startparam(), space_crv->endparam()); - - // Add warning to the log if the distance is too large. - Point par_start = param_cv->point(param_cv->startparam()); - double dist_par1 = par1.dist(par_start); - Point par_end = param_cv->point(param_cv->endparam()); - double dist_par2 = par2.dist(par_end); - // Also testing dist for intermediate parameter. - double tpar = (1.0*param_cv->startparam() + 2.0*param_cv->endparam())/3.0; - Point tpar_3d = space_crv->point(tpar); - Point tpar_2d = param_cv->point(tpar); - Point tpar_sf_3d = ParamSurface::point(tpar_2d[0], tpar_2d[1]); - double tpar_dist = tpar_3d.dist(tpar_sf_3d); - if ((dist_par1 > epspar) || (dist_par2 > epspar) || (tpar_dist > epspar)) { - LOG_WARN("Circle: dist_par1: " + std::to_string(dist_par1) + ", dist_par2: " + std::to_string(dist_par2) + - "tpar_dist: " + std::to_string(tpar_dist)); - } - } -#ifdef DEBUG - // TEST - Point p1 = param_cv->ParamCurve::point(param_cv->startparam()); - Point p2 = param_cv->ParamCurve::point(param_cv->endparam()); - int stop_break = 1; -#endif + } return param_cv; }